/* Copyright (c) 2007 Timothy Wall, All Rights Reserved
 *
 * The contents of this file is dual-licensed under 2
 * alternative Open Source/Free licenses: LGPL 2.1 or later and
 * Apache License 2.0. (starting with JNA version 4.0.0).
 *
 * You can freely decide which license you want to apply to
 * the project.
 *
 * You may obtain a copy of the LGPL License at:
 *
 * http://www.gnu.org/licenses/licenses.html
 *
 * A copy is also included in the downloadable source code package
 * containing JNA, in file "LGPL2.1".
 *
 * You may obtain a copy of the Apache License at:
 *
 * http://www.apache.org/licenses/
 *
 * A copy is also included in the downloadable source code package
 * containing JNA, in file "AL2.0".
 */
package com.sun.jna.platform.unix;

import com.sun.jna.Callback;
import com.sun.jna.FromNativeContext;
import com.sun.jna.Library;
import com.sun.jna.Native;
import com.sun.jna.NativeLong;
import com.sun.jna.Pointer;
import com.sun.jna.PointerType;
import com.sun.jna.Structure;
import com.sun.jna.Structure.FieldOrder;
import com.sun.jna.Union;
import com.sun.jna.ptr.ByReference;
import com.sun.jna.ptr.IntByReference;
import com.sun.jna.ptr.NativeLongByReference;
import com.sun.jna.ptr.PointerByReference;

/** Definition (incomplete) of the X library. */
public interface X11 extends Library {

    class VisualID extends NativeLong {
        private static final long serialVersionUID = 1L;
        public static final VisualID None = null;
        public VisualID() { this(0); }
        public VisualID(long value) { super(value, true); }
        protected boolean isNone(Object o) {
            return o == null
                || (o instanceof Number
                    && ((Number)o).longValue() == X11.None);
        }
        @Override
        public Object fromNative(Object nativeValue, FromNativeContext context) {
            if (isNone(nativeValue))
                return None;
            return new VisualID(((Number)nativeValue).longValue());
        }
    }

    class XID extends NativeLong {
        private static final long serialVersionUID = 1L;
        public static final XID None = null;
        public XID() { this(0); }
        public XID(long id) { super(id, true); }
        protected boolean isNone(Object o) {
            return o == null
                || (o instanceof Number
                    && ((Number)o).longValue() == X11.None);
        }
        @Override
        public Object fromNative(Object nativeValue, FromNativeContext context) {
            if (isNone(nativeValue))
                return None;
            return new XID(((Number)nativeValue).longValue());
        }
        @Override
        public String toString() {
            return "0x" + Long.toHexString(longValue());
        }
    }
    class Atom extends XID {
        private static final long serialVersionUID = 1L;
        public static final Atom None = null;
        public Atom() { }
        public Atom(long id) { super(id); }
        /** Return constants for predefined <code>Atom</code> values. */
        @Override
        public Object fromNative(Object nativeValue, FromNativeContext context) {
            long value = ((Number)nativeValue).longValue();
            if (value <= Integer.MAX_VALUE) {
                switch((int)value) {
                    case 0: return None;
                    case 1: return XA_PRIMARY;
                    case 2: return XA_SECONDARY;
                    case 3: return XA_ARC;
                    case 4: return XA_ATOM;
                    case 5: return XA_BITMAP;
                    case 6: return XA_CARDINAL;
                    case 7: return XA_COLORMAP;
                    case 8: return XA_CURSOR;
                    case 9: return XA_CUT_BUFFER0;
                    case 10: return XA_CUT_BUFFER1;
                    case 11: return XA_CUT_BUFFER2;
                    case 12: return XA_CUT_BUFFER3;
                    case 13: return XA_CUT_BUFFER4;
                    case 14: return XA_CUT_BUFFER5;
                    case 15: return XA_CUT_BUFFER6;
                    case 16: return XA_CUT_BUFFER7;
                    case 17: return XA_DRAWABLE;
                    case 18: return XA_FONT;
                    case 19: return XA_INTEGER;
                    case 20: return XA_PIXMAP;
                    case 21: return XA_POINT;
                    case 22: return XA_RECTANGLE;
                    case 23: return XA_RESOURCE_MANAGER;
                    case 24: return XA_RGB_COLOR_MAP;
                    case 25: return XA_RGB_BEST_MAP;
                    case 26: return XA_RGB_BLUE_MAP;
                    case 27: return XA_RGB_DEFAULT_MAP;
                    case 28: return XA_RGB_GRAY_MAP;
                    case 29: return XA_RGB_GREEN_MAP;
                    case 30: return XA_RGB_RED_MAP;
                    case 31: return XA_STRING;
                    case 32: return XA_VISUALID;
                    case 33: return XA_WINDOW;
                    case 34: return XA_WM_COMMAND;
                    case 35: return XA_WM_HINTS;
                    case 36: return XA_WM_CLIENT_MACHINE;
                    case 37: return XA_WM_ICON_NAME;
                    case 38: return XA_WM_ICON_SIZE;
                    case 39: return XA_WM_NAME;
                    case 40: return XA_WM_NORMAL_HINTS;
                    case 41: return XA_WM_SIZE_HINTS;
                    case 42: return XA_WM_ZOOM_HINTS;
                    case 43: return XA_MIN_SPACE;
                    case 44: return XA_NORM_SPACE;
                    case 45: return XA_MAX_SPACE;
                    case 46: return XA_END_SPACE;
                    case 47: return XA_SUPERSCRIPT_X;
                    case 48: return XA_SUPERSCRIPT_Y;
                    case 49: return XA_SUBSCRIPT_X;
                    case 50: return XA_SUBSCRIPT_Y;
                    case 51: return XA_UNDERLINE_POSITION;
                    case 52: return XA_UNDERLINE_THICKNESS;
                    case 53: return XA_STRIKEOUT_ASCENT;
                    case 54: return XA_STRIKEOUT_DESCENT;
                    case 55: return XA_ITALIC_ANGLE;
                    case 56: return XA_X_HEIGHT;
                    case 57: return XA_QUAD_WIDTH;
                    case 58: return XA_WEIGHT;
                    case 59: return XA_POINT_SIZE;
                    case 60: return XA_RESOLUTION;
                    case 61: return XA_COPYRIGHT;
                    case 62: return XA_NOTICE;
                    case 63: return XA_FONT_NAME;
                    case 64: return XA_FAMILY_NAME;
                    case 65: return XA_FULL_NAME;
                    case 66: return XA_CAP_HEIGHT;
                    case 67: return XA_WM_CLASS;
                    case 68: return XA_WM_TRANSIENT_FOR;
                    default:
                }
            }
            return new Atom(value);
        }
    }
    class AtomByReference extends ByReference {
        public AtomByReference() { super(XID.SIZE); }
        public Atom getValue() {
            NativeLong value = getPointer().getNativeLong(0);
            return (Atom)new Atom().fromNative(value, null);
        }
    }
    class Colormap extends XID {
        private static final long serialVersionUID = 1L;
        public static final Colormap None = null;
        public Colormap() { }
        public Colormap(long id) { super(id); }
        @Override
        public Object fromNative(Object nativeValue, FromNativeContext context) {
            if (isNone(nativeValue))
                return None;
            return new Colormap(((Number)nativeValue).longValue());
        }
    }
    class Font extends XID {
        private static final long serialVersionUID = 1L;
        public static final Font None = null;
        public Font() { }
        public Font(long id) { super(id); }
        @Override
        public Object fromNative(Object nativeValue, FromNativeContext context) {
            if (isNone(nativeValue))
                return None;
            return new Font(((Number)nativeValue).longValue());
        }
    }
    class Cursor extends XID {
        private static final long serialVersionUID = 1L;
        public static final Cursor None = null;
        public Cursor() { }
        public Cursor(long id) { super(id); }
        @Override
        public Object fromNative(Object nativeValue, FromNativeContext context) {
            if (isNone(nativeValue))
                return None;
            return new Cursor(((Number)nativeValue).longValue());
        }
    }
    class KeySym extends XID {
        private static final long serialVersionUID = 1L;
        public static final KeySym None = null;
        public KeySym() { }
        public KeySym(long id) { super(id); }
        @Override
        public Object fromNative(Object nativeValue, FromNativeContext context) {
            if (isNone(nativeValue))
                return None;
            return new KeySym(((Number)nativeValue).longValue());
        }
    }
    class Drawable extends XID {
        private static final long serialVersionUID = 1L;
        public static final Drawable None = null;
        public Drawable() { }
        public Drawable(long id) { super(id); }
        @Override
        public Object fromNative(Object nativeValue, FromNativeContext context) {
            if (isNone(nativeValue))
                return None;
            return new Drawable(((Number)nativeValue).longValue());
        }
    }
    class Window extends Drawable {
        private static final long serialVersionUID = 1L;
        public static final Window None = null;
        public Window() { }
        public Window(long id) { super(id); }
        @Override
        public Object fromNative(Object nativeValue, FromNativeContext context) {
            if (isNone(nativeValue))
                return None;
            return new Window(((Number)nativeValue).longValue());
        }
    }
    class WindowByReference extends ByReference {
        public WindowByReference() { super(XID.SIZE); }
        public Window getValue() {
            NativeLong value = getPointer().getNativeLong(0);
            return value.longValue() == X11.None ? Window.None : new Window(value.longValue());
        }
    }
    class Pixmap extends Drawable {
        private static final long serialVersionUID = 1L;
        public static final Pixmap None = null;
        public Pixmap() { }
        public Pixmap(long id) { super(id); }
        @Override
        public Object fromNative(Object nativeValue, FromNativeContext context) {
            if (isNone(nativeValue))
                return None;
            return new Pixmap(((Number)nativeValue).longValue());
        }
    }
    // TODO: define structure
    class Display extends PointerType { }
    // TODO: define structure
    class Visual extends PointerType {
        public VisualID getVisualID() {
            if (getPointer() != null)
                return new VisualID(getPointer().getNativeLong(Native.POINTER_SIZE).longValue());
            throw new IllegalStateException("Attempting to retrieve VisualID from a null Visual");
        }
        @Override
        public String toString() {
            return "Visual: VisualID=0x" + Long.toHexString(getVisualID().longValue());
        }
    }
    // TODO: define structure
    class Screen extends PointerType { }
    // TODO: define structure
    class GC extends PointerType { }
    // TODO: define structure
    class XImage extends PointerType { }

    /**
     * The XQueryExtension function determines if the named extension is present.
     * @param display Specifies the connection to the X server.
     * @param name Specifies the extension name.
     * @param major_opcode_return Returns the major opcode.
     * @param first_event_return Returns the first event code, if any.
     * @param first_error_return Returns the first error code, if any.
     * @return if present
     */
    boolean XQueryExtension(Display display, String name, IntByReference major_opcode_return, IntByReference first_event_return, IntByReference first_error_return);

    /** Definition (incomplete) of the Xext library. */
    interface Xext extends Library {
        Xext INSTANCE = Native.load("Xext", Xext.class);
        // Shape Kinds
        int ShapeBounding = 0;
        int ShapeClip = 1;
        int ShapeInput = 2;
        // Operations
        int ShapeSet = 0;
        int ShapeUnion = 1;
        int ShapeIntersect = 2;
        int ShapeSubtract = 3;
        int ShapeInvert = 4;

        void XShapeCombineMask(Display display, Window window, int dest_kind,
                               int x_off, int y_off, Pixmap src, int op);
    }

    /** Definition (incomplete) of the Xrender library. */
    interface Xrender extends Library {
        Xrender INSTANCE = Native.load("Xrender", Xrender.class);

        @FieldOrder({"red", "redMask", "green", "greenMask", "blue", "blueMask", "alpha", "alphaMask"})
        class XRenderDirectFormat extends Structure {
            public short red, redMask;
            public short green, greenMask;
            public short blue, blueMask;
            public short alpha, alphaMask;
        }

        class PictFormat extends XID {
            private static final long serialVersionUID = 1L;
            public static final PictFormat None = null;
            public PictFormat(long value) { super(value); }
            public PictFormat() { this(0); }
            @Override
            public Object fromNative(Object nativeValue, FromNativeContext context) {
                if (isNone(nativeValue))
                    return None;
                return new PictFormat(((Number)nativeValue).longValue());
            }
        }

        @FieldOrder({"id", "type", "depth", "direct", "colormap"})
        class XRenderPictFormat extends Structure {
            public PictFormat id;
            public int type;
            public int depth;
            public XRenderDirectFormat direct;
            public Colormap colormap;
        }
        int PictTypeIndexed = 0x0;
        int PictTypeDirect = 0x1;
        XRenderPictFormat XRenderFindVisualFormat(Display display, Visual visual);
    }

    /** Definition of the Xevie library. */
    interface Xevie extends Library {
        /** Instance of Xevie. Note: This extension has been removed from xorg/xserver on Oct 22, 2008 because it is broken and maintainerless. */
        Xevie INSTANCE = Native.load("Xevie", Xevie.class);
        int XEVIE_UNMODIFIED = 0;
        int XEVIE_MODIFIED   = 1;
        // Bool XevieQueryVersion (Display* display, int* major_version, int* minor_version);
        boolean XevieQueryVersion (Display display, IntByReference major_version, IntByReference minor_version);
        // Status XevieStart (Display* display);
        int XevieStart (Display display);
        // Status XevieEnd (Display* display);
        int XevieEnd (Display display);
        // Status XevieSendEvent (Display* display, XEvent* event, int data_type);
        int XevieSendEvent (Display display, XEvent event, int data_type);
        // Status XevieSelectInput (Display* display, NativeLong event_mask);
        int XevieSelectInput (Display display, NativeLong event_mask);
    }

    /** Definition of the XTest library. */
    interface XTest extends Library {
        XTest INSTANCE = Native.load("Xtst", XTest.class);///usr/lib/libxcb-xtest.so.0
        boolean XTestQueryExtension(Display display, IntByReference event_basep, IntByReference error_basep, IntByReference majorp, IntByReference minorp);
        boolean XTestCompareCursorWithWindow(Display display, Window window, Cursor cursor);
        boolean XTestCompareCurrentCursorWithWindow(Display display, Window window);
        // extern int XTestFakeKeyEvent(Display* display, unsigned int keycode, Bool is_press, unsigned long delay);
        int XTestFakeKeyEvent(Display display, int keycode, boolean is_press, NativeLong delay);
        int XTestFakeButtonEvent(Display display, int button, boolean is_press, NativeLong delay);
        int XTestFakeMotionEvent(Display display, int screen, int x, int y, NativeLong delay);
        int XTestFakeRelativeMotionEvent(Display display, int x, int y, NativeLong delay);
        int XTestFakeDeviceKeyEvent(Display display, XDeviceByReference dev, int keycode, boolean is_press, IntByReference axes, int n_axes, NativeLong delay);
        int XTestFakeDeviceButtonEvent(Display display, XDeviceByReference dev, int button, boolean is_press, IntByReference axes, int n_axes, NativeLong delay);
        int XTestFakeProximityEvent(Display display, XDeviceByReference dev, boolean in_prox, IntByReference axes, int n_axes, NativeLong delay);
        int XTestFakeDeviceMotionEvent(Display display, XDeviceByReference dev, boolean is_relative, int first_axis, IntByReference axes, int n_axes, NativeLong delay);
        int XTestGrabControl(Display display, boolean impervious);
        //void XTestSetGContextOfGC(GC gc, GContext gid);
        void XTestSetVisualIDOfVisual(Visual visual, VisualID visualid);
        int XTestDiscard(Display display);
    }

    @FieldOrder({"input_class", "event_type_base"})
    class XInputClassInfoByReference extends Structure implements Structure.ByReference {
        public byte input_class;
        public byte event_type_base;
    }

    @FieldOrder({"device_id", "num_classes", "classes"})
    class XDeviceByReference extends Structure implements Structure.ByReference {
        public XID device_id;
        public int num_classes;
        public XInputClassInfoByReference classes;
    }

    X11 INSTANCE = Native.load("X11", X11.class);

    /*
      typedef struct {
        long flags;     // marks which fields in this structure are defined
        Bool input;     // does this application rely on the window manager to
                        // get keyboard input?
        int initial_state;      // see below
        Pixmap icon_pixmap;     // pixmap to be used as icon
        Window icon_window;     // window to be used as icon
        int icon_x, icon_y;     // initial position of icon
        Pixmap icon_mask;       // icon mask bitmap
        XID window_group;       // id of related window group
        // this structure may be extended in the future
      } XWMHints;
    */
    @FieldOrder({"flags", "input", "initial_state", "icon_pixmap", "icon_window", "icon_x", "icon_y", "icon_mask", "window_group"})
    class XWMHints extends Structure {
        public NativeLong flags;
        public boolean input;
        public int initial_state;
        public Pixmap icon_pixmap;
        public Window icon_window;
        public int icon_x, icon_y;
        public Pixmap icon_mask;
        public XID window_group;
    }

    /*
      typedef struct {
        unsigned char *value;   // same as Property routines
        Atom encoding;          // prop type
        int format;             // prop data format: 8, 16, or 32
        unsigned long nitems;   // number of data items in value
      } XTextProperty;
    */
    @FieldOrder({"value", "encoding", "format", "nitems"})
    class XTextProperty extends Structure {
        public String value;
        public Atom encoding;
        public int format;
        public NativeLong nitems;
    }

    /*
      typedef struct {
        long flags;     // marks which fields in this structure are defined
        int x, y;       // obsolete for new window mgrs, but clients
        int width, height;      /// should set so old wm's don't mess up
        int min_width, min_height;
        int max_width, max_height;
        int width_inc, height_inc;
        struct {
          int x;        // numerator
          int y;        // denominator
        } min_aspect, max_aspect;
        int base_width, base_height;            // added by ICCCM version 1
        int win_gravity;                        // added by ICCCM version 1
      } XSizeHints;
     */
    @FieldOrder({"flags",
                "x", "y",
                "width", "height",
                "min_width", "min_height",
                "max_width", "max_height",
                "width_inc", "height_inc",
                "min_aspect", "max_aspect",
                "base_width", "base_height",
                "win_gravity"})
    class XSizeHints extends Structure {
        @FieldOrder({"x", "y"})
        public static class Aspect extends Structure {
            public int x; // numerator
            public int y; // denominator
        }

        public NativeLong flags;
        public int x, y;
        public int width, height;
        public int min_width, min_height;
        public int max_width, max_height;
        public int width_inc, height_inc;

        public Aspect min_aspect, max_aspect;
        public int base_width, base_height;
        public int win_gravity;
    }

    /*
      typedef struct {
        int x, y;               // location of window
        int width, height;      // width and height of window
        int border_width;       // border width of window
        int depth;              // depth of window
        Visual *visual;         // the associated visual structure
        Window root;            // root of screen containing window
#if defined(__cplusplus) || defined(c_plusplus)
        int c_class;            // C++ InputOutput, InputOnly
#else
        int class;              // InputOutput, InputOnly
#endif
        int bit_gravity;        // one of bit gravity values
        int win_gravity;        // one of the window gravity values
        int backing_store;      // NotUseful, WhenMapped, Always
        unsigned long backing_planes;// planes to be preserved if possible
        unsigned long backing_pixel;// value to be used when restoring planes
        Bool save_under;        // boolean, should bits under be saved?
        Colormap colormap;      // color map to be associated with window
        Bool map_installed;     // boolean, is color map currently installed
        int map_state;          // IsUnmapped, IsUnviewable, IsViewable
        long all_event_masks;   // set of events all people have interest in
        long your_event_mask;   // my event mask
        long do_not_propagate_mask; // set of events that should not propagate
        Bool override_redirect; // boolean value for override-redirect
        Screen *screen;         // back pointer to correct screen
      } XWindowAttributes;
     */
    @FieldOrder({"x", "y",
                "width", "height",
                "border_width",
                "depth", "visual", "root", "c_class",
                "bit_gravity", "win_gravity",
                "backing_store", "backing_planes", "backing_pixel",
                "save_under", "colormap",
                "map_installed", "map_state",
                "all_event_masks", "your_event_mask", "do_not_propagate_mask",
                "override_redirect", "screen"})
    class XWindowAttributes extends Structure {
        public int x, y;
        public int width, height;
        public int border_width;
        public int depth;
        public Visual visual;
        public Window root;
        public int c_class;
        public int bit_gravity;
        public int win_gravity;
        public int backing_store;
        public NativeLong backing_planes;
        public NativeLong backing_pixel;
        public boolean save_under;
        public Colormap colormap;
        public boolean map_installed;
        public int map_state;
        public NativeLong all_event_masks;
        public NativeLong your_event_mask;
        public NativeLong do_not_propagate_mask;
        public boolean override_redirect;
        public Screen screen;
    }

    /*
      typedef struct {
        Pixmap background_pixmap;       // background or None or ParentRelative
        unsigned long background_pixel; // background pixel
        Pixmap border_pixmap;   // border of the window
        unsigned long border_pixel;     // border pixel value
        int bit_gravity;                // one of bit gravity values
        int win_gravity;                // one of the window gravity values
        int backing_store;              // NotUseful, WhenMapped, Always
        unsigned long backing_planes;// planes to be preseved if possible
        unsigned long backing_pixel;// value to use in restoring planes
        Bool save_under;                // should bits under be saved? (popups)
        long event_mask;                // set of events that should be saved
        long do_not_propagate_mask;     // set of events that should not propagate
        Bool override_redirect; // boolean value for override-redirect
        Colormap colormap;              // color map to be associated with window
        Cursor cursor;          // cursor to be displayed (or None)
      } XSetWindowAttributes;
     */
    @FieldOrder({"background_pixmap", "background_pixel",
                "border_pixmap", "border_pixel",
                "bit_gravity", "win_gravity",
                "backing_store", "backing_planes", "backing_pixel",
                "save_under",
                "event_mask", "do_not_propagate_mask",
                "override_redirect", "colormap", "cursor"})
    class XSetWindowAttributes extends Structure {
        public Pixmap background_pixmap;
        public NativeLong background_pixel;
        public Pixmap border_pixmap;
        public NativeLong border_pixel;
        public int bit_gravity;
        public int win_gravity;
        public int backing_store;
        public NativeLong backing_planes;
        public NativeLong backing_pixel;
        public boolean save_under;
        public NativeLong event_mask;
        public NativeLong do_not_propagate_mask;
        public boolean override_redirect;
        public Colormap colormap;
        public Cursor cursor;
    }

    int XK_0 = 0x30;
    int XK_9 = 0x39;
    int XK_A = 0x41;
    int XK_Z = 0x5a;
    int XK_a = 0x61;
    int XK_z = 0x7a;
    int XK_Shift_L = 0xffe1;
    int XK_Shift_R = 0xffe2;
    int XK_Control_L = 0xffe3;
    int XK_Control_R = 0xffe4;
    int XK_CapsLock = 0xffe5;
    int XK_ShiftLock = 0xffe6;
    int XK_Meta_L = 0xffe7;
    int XK_Meta_R = 0xffe8;
    int XK_Alt_L = 0xffe9;
    int XK_Alt_R = 0xffea;

    int VisualNoMask = 0x0;
    int VisualIDMask = 0x1;
    int VisualScreenMask = 0x2;
    int VisualDepthMask = 0x4;
    int VisualClassMask = 0x8;
    int VisualRedMaskMask = 0x10;
    int VisualGreenMaskMask = 0x20;
    int VisualBlueMaskMask = 0x40;
    int VisualColormapSizeMask = 0x80;
    int VisualBitsPerRGBMask = 0x100;
    int VisualAllMask = 0x1FF;

    @FieldOrder({"visual", "visualid", "screen", "depth", "c_class", "red_mask", "green_mask", "blue_mask", "colormap_size", "bits_per_rgb"})
    class XVisualInfo extends Structure {
        public Visual visual;
        public VisualID visualid;
        public int screen;
        public int depth;
        public int c_class;
        public NativeLong red_mask;
        public NativeLong green_mask;
        public NativeLong blue_mask;
        public int colormap_size;
        public int bits_per_rgb;
    }

    @FieldOrder({"x", "y"})
    class XPoint extends Structure {
        public short x, y;

        public XPoint() { this((short)0, (short)0); }
        public XPoint(short x, short y) {
            this.x = x;
            this.y = y;
        }
    }

    @FieldOrder({"x", "y", "width", "height"})
    class XRectangle extends Structure {
        public short x, y;
        public short width, height;

        public XRectangle() { this((short)0, (short)0, (short)0, (short)0); }
        public XRectangle(short x, short y, short width, short height) {
            this.x = x; this.y = y;
            this.width = width; this.height = height;
        }
    }

    Atom XA_PRIMARY = new Atom(1);
    Atom XA_SECONDARY = new Atom(2);
    Atom XA_ARC = new Atom(3);
    Atom XA_ATOM = new Atom(4);
    Atom XA_BITMAP = new Atom(5);
    Atom XA_CARDINAL = new Atom(6);
    Atom XA_COLORMAP = new Atom(7);
    Atom XA_CURSOR = new Atom(8);
    Atom XA_CUT_BUFFER0 = new Atom(9);
    Atom XA_CUT_BUFFER1 = new Atom(10);
    Atom XA_CUT_BUFFER2 = new Atom(11);
    Atom XA_CUT_BUFFER3 = new Atom(12);
    Atom XA_CUT_BUFFER4 = new Atom(13);
    Atom XA_CUT_BUFFER5 = new Atom(14);
    Atom XA_CUT_BUFFER6 = new Atom(15);
    Atom XA_CUT_BUFFER7 = new Atom(16);
    Atom XA_DRAWABLE = new Atom(17);
    Atom XA_FONT = new Atom(18);
    Atom XA_INTEGER = new Atom(19);
    Atom XA_PIXMAP = new Atom(20);
    Atom XA_POINT = new Atom(21);
    Atom XA_RECTANGLE = new Atom(22);
    Atom XA_RESOURCE_MANAGER = new Atom(23);
    Atom XA_RGB_COLOR_MAP = new Atom(24);
    Atom XA_RGB_BEST_MAP = new Atom(25);
    Atom XA_RGB_BLUE_MAP = new Atom(26);
    Atom XA_RGB_DEFAULT_MAP = new Atom(27);
    Atom XA_RGB_GRAY_MAP = new Atom(28);
    Atom XA_RGB_GREEN_MAP = new Atom(29);
    Atom XA_RGB_RED_MAP = new Atom(30);
    Atom XA_STRING = new Atom(31);
    Atom XA_VISUALID = new Atom(32);
    Atom XA_WINDOW = new Atom(33);
    Atom XA_WM_COMMAND = new Atom(34);
    Atom XA_WM_HINTS = new Atom(35);
    Atom XA_WM_CLIENT_MACHINE = new Atom(36);
    Atom XA_WM_ICON_NAME = new Atom(37);
    Atom XA_WM_ICON_SIZE = new Atom(38);
    Atom XA_WM_NAME = new Atom(39);
    Atom XA_WM_NORMAL_HINTS = new Atom(40);
    Atom XA_WM_SIZE_HINTS = new Atom(41);
    Atom XA_WM_ZOOM_HINTS = new Atom(42);
    Atom XA_MIN_SPACE = new Atom(43);
    Atom XA_NORM_SPACE = new Atom(44);
    Atom XA_MAX_SPACE = new Atom(45);
    Atom XA_END_SPACE = new Atom(46);
    Atom XA_SUPERSCRIPT_X = new Atom(47);
    Atom XA_SUPERSCRIPT_Y = new Atom(48);
    Atom XA_SUBSCRIPT_X = new Atom(49);
    Atom XA_SUBSCRIPT_Y = new Atom(50);
    Atom XA_UNDERLINE_POSITION = new Atom(51);
    Atom XA_UNDERLINE_THICKNESS = new Atom(52);
    Atom XA_STRIKEOUT_ASCENT = new Atom(53);
    Atom XA_STRIKEOUT_DESCENT = new Atom(54);
    Atom XA_ITALIC_ANGLE = new Atom(55);
    Atom XA_X_HEIGHT = new Atom(56);
    Atom XA_QUAD_WIDTH = new Atom(57);
    Atom XA_WEIGHT = new Atom(58);
    Atom XA_POINT_SIZE = new Atom(59);
    Atom XA_RESOLUTION = new Atom(60);
    Atom XA_COPYRIGHT = new Atom(61);
    Atom XA_NOTICE = new Atom(62);
    Atom XA_FONT_NAME = new Atom(63);
    Atom XA_FAMILY_NAME = new Atom(64);
    Atom XA_FULL_NAME = new Atom(65);
    Atom XA_CAP_HEIGHT = new Atom(66);
    Atom XA_WM_CLASS = new Atom(67);
    Atom XA_WM_TRANSIENT_FOR = new Atom(68);
    Atom XA_LAST_PREDEFINED = XA_WM_TRANSIENT_FOR;

    Display XOpenDisplay(String name);
    int XGetErrorText(Display display, int code, byte[] buffer, int len);
    int XDefaultScreen(Display display);
    Screen DefaultScreenOfDisplay(Display display);
    Visual XDefaultVisual(Display display, int screen);
    Colormap XDefaultColormap(Display display, int screen);
    int XDisplayWidth(Display display, int screen);
    int XDisplayHeight(Display display, int screen);
    Window XDefaultRootWindow(Display display);
    Window XRootWindow(Display display, int screen);
    int XAllocNamedColor(Display display, int colormap, String color_name,
                         Pointer screen_def_return, Pointer exact_def_return);
    XSizeHints XAllocSizeHints();
    void XSetWMProperties(Display display, Window window, String window_name,
                          String icon_name, String[] argv, int argc,
                          XSizeHints normal_hints, Pointer wm_hints,
                          Pointer class_hints);

    int XSetWMProtocols(Display display, Window window, Atom[] atom, int count);
    int XGetWMProtocols(Display display, Window w, PointerByReference protocols_return, IntByReference count_return);

    int XFree(Pointer data);
    Window XCreateSimpleWindow(Display display, Window parent, int x, int y,
                               int width, int height, int border_width,
                               int border, int background);
    Pixmap XCreateBitmapFromData(Display display, Window window, Pointer data,
                                 int width, int height);
    int XMapWindow(Display display, Window window);
    int XMapRaised(Display display, Window window);
    int XMapSubwindows(Display display, Window window);

    /** Flushes the output buffer. Most client applications need not use this
     * function because the output buffer is automatically flushed as needed
     * by calls to XPending, XNextEvent, and XWindowEvent. Events generated by
     * the server may be enqueued into the library's event queue.
     * @param display target Display
     * @return status
     */
    int XFlush(Display display);
    /** <p>Flushes the output buffer and then waits until all requests have been
     * received and processed by the X server. Any errors generated must be
     * handled by the error handler. For each protocol error received by Xlib,
     * XSync calls the client application's error handling routine (see
     * section 11.8.2). Any events generated by the server are enqueued into
     * the library's event queue.</p>
     * Finally, if you passed False, XSync does
     * not discard the events in the queue. If you passed True, XSync discards
     * all events in the queue, including those events that were on the queue
     * before XSync was called. Client applications seldom need to call
     * XSync.
     * @param display target Display
     * @param discard whether to discard events
     * @return status
     */
    int XSync(Display display, boolean discard);
    /** <p>If mode is QueuedAlready, XEventsQueued returns the number of events
     * already in the event queue (and never performs a system call). If mode
     * is QueuedAfterFlush, XEventsQueued returns the number of events already
     * in the queue if the number is nonzero. If there are no events in the
     * queue, XEventsQueued flushes the output buffer, attempts to read more
     * events out of the application's connection, and returns the number
     * read. If mode is QueuedAfterReading, XEventsQueued returns the number
     * of events already in the queue if the number is nonzero. If there are
     * no events in the queue, XEventsQueued attempts to read more events out
     * of the application's connection without flushing the output buffer and
     * returns the number read.</p>
     * XEventsQueued always returns immediately
     * without I/O if there are events already in the queue. XEventsQueued
     * with mode QueuedAfterFlush is identical in behavior to
     * XPending. XEventsQueued with mode QueuedAlready is identical to the
     * XQLength function.
     * @param display target Display
     * @param mode QueuedAlready, QueuedAfterFlush, or QueuedAfterReading
     * @return status
     */
    int XEventsQueued(Display display, int mode);
    /** Returns the number of events that have been received from the X server
     * but have not been removed from the event queue. XPending  is identical
     * to XEventsQueued with the mode QueuedAfterFlush specified.
     * @param display target Display
     * @return status
     */
    int XPending(Display display);

    int XUnmapWindow(Display display, Window window);
    int XDestroyWindow(Display display, Window window);
    int XCloseDisplay(Display display);
    int XClearWindow(Display display, Window window);
    int XClearArea(Display display, Window window, int x, int y, int w, int h, int exposures);
    Pixmap XCreatePixmap(Display display, Drawable drawable, int width, int height, int depth);
    int XFreePixmap(Display display, Pixmap pixmap);

    @FieldOrder({"function", "plane_mask",
                "foreground", "background",
                "line_width", "line_style",
                "cap_style", "join_style",
                "fill_style", "fill_rule",
                "arc_mode", "tile", "stipple",
                "ts_x_origin", "ts_y_origin",
                "font", "subwindow_mode", "graphics_exposures",
                "clip_x_origin", "clip_y_origin", "clip_mask",
                "dash_offset", "dashes"})
    class XGCValues extends Structure {
        public int function;            /* logical operation */
        public NativeLong plane_mask;/* plane mask */
        public NativeLong foreground;/* foreground pixel */
        public NativeLong background;/* background pixel */
        public int line_width;          /* line width (in pixels) */
        public int line_style;          /* LineSolid, LineOnOffDash, LineDoubleDash*/
        public int cap_style;           /* CapNotLast, CapButt, CapRound, CapProjecting */
        public int join_style;          /* JoinMiter, JoinRound, JoinBevel */
        public int fill_style;          /* FillSolid, FillTiled, FillStippled FillOpaqueStippled*/
        public int fill_rule;           /* EvenOddRule, WindingRule */
        public int arc_mode;            /* ArcChord, ArcPieSlice */
        public Pixmap tile;             /* tile pixmap for tiling operations */
        public Pixmap stipple;          /* stipple 1 plane pixmap for stippling */
        public int ts_x_origin;         /* offset for tile or stipple operations */
        public int ts_y_origin;
        public Font font;               /* default text font for text operations */
        public int subwindow_mode;      /* ClipByChildren, IncludeInferiors */
        public boolean graphics_exposures; /* boolean, should exposures be generated */
        public int clip_x_origin;       /* origin for clipping */
        public int clip_y_origin;
        public Pixmap clip_mask;        /* bitmap clipping; other calls for rects */
        public int dash_offset;         /* patterned/dashed line information */
        public byte dashes;
    }
    GC XCreateGC(Display display, Drawable drawable, NativeLong mask, XGCValues values);
    int XSetFillRule(Display display, GC gc, int fill_rule);
    int XFreeGC(Display display, GC gc);
    int XDrawPoint(Display display, Drawable drawable, GC gc, int x, int y);
    int XDrawPoints(Display display, Drawable drawable, GC gc,
                    XPoint[] points, int npoints, int mode);
    int XFillRectangle(Display display, Drawable drawable, GC gc,
                       int x, int y, int width, int height);
    int XFillRectangles(Display display, Drawable drawable, GC gc,
                        XRectangle[] rectangles, int nrectangles);
    int XSetForeground(Display display, GC gc, NativeLong color);
    int XSetBackground(Display display, GC gc, NativeLong color);
    int XFillArc(Display display, Drawable drawable, GC gc, int x, int y,
                 int width, int height, int angle1, int angle2);
    int XFillPolygon(Display dpy, Drawable drawable, GC gc, XPoint[] points,
                     int npoints, int shape, int mode);
    int XQueryTree(Display display, Window window, WindowByReference root,
                   WindowByReference parent, PointerByReference children,
                   IntByReference childCount);
    boolean XQueryPointer(Display display, Window window,
                          WindowByReference root_return,
                          WindowByReference child_return,
                          IntByReference root_x_return,
                          IntByReference root_y_return,
                          IntByReference win_x_return,
                          IntByReference win_y_return,
                          IntByReference mask_return);
    int XGetWindowAttributes(Display display, Window window, XWindowAttributes attributes);
    int XChangeWindowAttributes(Display display, Window window, NativeLong valuemask, XSetWindowAttributes attributes);
    // Status XGetGeometry(Display *display, Drawable d, Window *root_return, int *x_return, int *y_return, unsigned int *width_return,
    //                     unsigned int *height_return, unsigned int *border_width_return, unsigned int *depth_return);
    int XGetGeometry(Display display, Drawable d, WindowByReference w, IntByReference x, IntByReference y, IntByReference width,
                     IntByReference heigth, IntByReference border_width, IntByReference depth);
    // Bool XTranslateCoordinates(Display *display, Window src_w, dest_w, int src_x, int src_y,
    //                            int *dest_x_return, int *dest_y_return, Window *child_return);
    boolean XTranslateCoordinates(Display display, Window src_w, Window dest_w, int src_x, int src_y,
                                  IntByReference dest_x_return, IntByReference dest_y_return, WindowByReference child_return);

    int XMoveWindow(Display display, Window w, int x, int y);
    int XResizeWindow(Display display, Window w, int width, int height);
    int XMoveResizeWindow(Display display, Window w, int x, int y, int width, int height);
    int XRaiseWindow(Display display, Window w);
    int XLowerWindow(Display display, Window w);

    /*****************************************************************
     * RESERVED RESOURCE AND CONSTANT DEFINITIONS
     *****************************************************************/

    int None = 0;        /* universal null resource or null atom */
    int ParentRelative = 1;        /* background pixmap in CreateWindow and ChangeWindowAttributes */
    int CopyFromParent = 0;            /* border pixmap in CreateWindow
                                          and ChangeWindowAttributes
                                          special VisualID and special window
                                          class passed to CreateWindow */
    int PointerWindow = 0;    /* destination window in SendEvent */
    int InputFocus = 1;    /* destination window in SendEvent */
    int PointerRoot = 1;    /* focus window in SetInputFocus */
    int AnyPropertyType = 0;    /* special Atom, passed to GetProperty */
    int AnyKey = 0;        /* special Key Code, passed to GrabKey */
    int AnyButton = 0;    /* special Button Code, passed to GrabButton */
    int AllTemporary = 0;    /* special Resource ID passed to KillClient */
    int CurrentTime = 0;    /* special Time */
    int NoSymbol = 0;        /* special KeySym */

    /*****************************************************************
     * EVENT DEFINITIONS
     *****************************************************************/

    /* Input Event Masks. Used as event-mask window attribute and as arguments
       to Grab requests.  Not to be confused with event names.  */
    int NoEventMask = 0;
    int KeyPressMask = (1<<0);
    int KeyReleaseMask = (1<<1);
    int ButtonPressMask = (1<<2);
    int ButtonReleaseMask = (1<<3);
    int EnterWindowMask = (1<<4);
    int LeaveWindowMask = (1<<5);
    int PointerMotionMask = (1<<6);
    int PointerMotionHintMask = (1<<7);
    int Button1MotionMask = (1<<8);
    int Button2MotionMask = (1<<9);
    int Button3MotionMask = (1<<10);
    int Button4MotionMask = (1<<11);
    int Button5MotionMask = (1<<12);
    int ButtonMotionMask = (1<<13);
    int KeymapStateMask = (1<<14);
    int ExposureMask = (1<<15);
    int VisibilityChangeMask = (1<<16);
    int StructureNotifyMask = (1<<17);
    int ResizeRedirectMask = (1<<18);
    int SubstructureNotifyMask = (1<<19);
    int SubstructureRedirectMask = (1<<20);
    int FocusChangeMask = (1<<21);
    int PropertyChangeMask = (1<<22);
    int ColormapChangeMask = (1<<23);
    int OwnerGrabButtonMask = (1<<24);

    /* Event names.  Used in "type" field in XEvent structures.  Not to be
       confused with event masks above.  They start from 2 because 0 and 1
       are reserved in the protocol for errors and replies. */
    int KeyPress = 2;
    int KeyRelease = 3;
    int ButtonPress = 4;
    int ButtonRelease = 5;
    int MotionNotify = 6;
    int EnterNotify = 7;
    int LeaveNotify = 8;
    int FocusIn = 9;
    int FocusOut = 10;
    int KeymapNotify = 11;
    int Expose = 12;
    int GraphicsExpose = 13;
    int NoExpose = 14;
    int VisibilityNotify = 15;
    int CreateNotify = 16;
    int DestroyNotify = 17;
    int UnmapNotify = 18;
    int MapNotify = 19;
    int MapRequest = 20;
    int ReparentNotify = 21;
    int ConfigureNotify = 22;
    int ConfigureRequest = 23;
    int GravityNotify = 24;
    int ResizeRequest = 25;
    int CirculateNotify = 26;
    int CirculateRequest = 27;
    int PropertyNotify = 28;
    int SelectionClear = 29;
    int SelectionRequest = 30;
    int SelectionNotify = 31;
    int ColormapNotify = 32;
    int ClientMessage = 33;
    int MappingNotify = 34;
    int GenericEvent = 35;
    int LASTEvent = 36;   // must be bigger than any event #

    /* Key masks. Used as modifiers to GrabButton and GrabKey, results of QueryPointer,
       state in various key-, mouse-, and button-related events. */
    int ShiftMask = (1 << 0);
    int LockMask = (1 << 1);
    int ControlMask = (1 << 2);
    int Mod1Mask = (1 << 3);
    int Mod2Mask = (1 << 4);
    int Mod3Mask = (1 << 5);
    int Mod4Mask = (1 << 6);
    int Mod5Mask = (1 << 7);

    /* modifier names.  Used to build a SetModifierMapping request or
       to read a GetModifierMapping request.  These correspond to the
       masks defined above. */
    int ShiftMapIndex = 0;
    int LockMapIndex = 1;
    int ControlMapIndex = 2;
    int Mod1MapIndex = 3;
    int Mod2MapIndex = 4;
    int Mod3MapIndex = 5;
    int Mod4MapIndex = 6;
    int Mod5MapIndex = 7;

    /* button masks.  Used in same manner as Key masks above. Not to be confused
       with button names below. */
    int Button1Mask = (1 << 8);
    int Button2Mask = (1 << 9);
    int Button3Mask = (1 << 10);
    int Button4Mask = (1 << 11);
    int Button5Mask = (1 << 12);

    int AnyModifier = (1 << 15);  /* used in GrabButton, GrabKey */

    /* button names. Used as arguments to GrabButton and as detail in ButtonPress
       and ButtonRelease events.  Not to be confused with button masks above.
       Note that 0 is already defined above as "AnyButton".  */
    int Button1 = 1;
    int Button2 = 2;
    int Button3 = 3;
    int Button4 = 4;
    int Button5 = 5;

    /* Notify modes */
    int NotifyNormal = 0;
    int NotifyGrab = 1;
    int NotifyUngrab = 2;
    int NotifyWhileGrabbed = 3;

    int NotifyHint = 1;    /* for MotionNotify events */

    /* Notify detail */
    int NotifyAncestor = 0;
    int NotifyVirtual = 1;
    int NotifyInferior = 2;
    int NotifyNonlinear = 3;
    int NotifyNonlinearVirtual = 4;
    int NotifyPointer = 5;
    int NotifyPointerRoot = 6;
    int NotifyDetailNone = 7;

    /* Visibility notify */
    int VisibilityUnobscured = 0;
    int VisibilityPartiallyObscured = 1;
    int VisibilityFullyObscured = 2;

    /* Circulation request */
    int PlaceOnTop = 0;
    int PlaceOnBottom = 1;

    /* protocol families */
    int FamilyInternet = 0;    /* IPv4 */
    int FamilyDECnet = 1;
    int FamilyChaos = 2;
    int FamilyInternet6 = 6;    /* IPv6 */

    /* authentication families not tied to a specific protocol */
    int FamilyServerInterpreted = 5;

    /* Property notification */
    int PropertyNewValue = 0;
    int PropertyDelete = 1;

    /* Color Map notification */
    int ColormapUninstalled = 0;
    int ColormapInstalled = 1;

    /* GrabPointer, GrabButton, GrabKeyboard, GrabKey Modes */
    int GrabModeSync = 0;
    int GrabModeAsync = 1;

    /* GrabPointer, GrabKeyboard reply status */
    int GrabSuccess = 0;
    int AlreadyGrabbed = 1;
    int GrabInvalidTime = 2;
    int GrabNotViewable = 3;
    int GrabFrozen = 4;

    /* AllowEvents modes */
    int AsyncPointer = 0;
    int SyncPointer = 1;
    int ReplayPointer = 2;
    int AsyncKeyboard = 3;
    int SyncKeyboard = 4;
    int ReplayKeyboard = 5;
    int AsyncBoth = 6;
    int SyncBoth = 7;

    /* Used in SetInputFocus, GetInputFocus */
    int RevertToNone = None;
    int RevertToPointerRoot = PointerRoot;
    int RevertToParent = 2;

    /*****************************************************************
     * ERROR CODES
     *****************************************************************/

    int Success = 0;    /* everything's okay */
    int BadRequest = 1;    /* bad request code */
    int BadValue = 2;    /* int parameter out of range */
    int BadWindow = 3;    /* parameter not a Window */
    int BadPixmap = 4;    /* parameter not a Pixmap */
    int BadAtom = 5;    /* parameter not an Atom */
    int BadCursor = 6;    /* parameter not a Cursor */
    int BadFont = 7;    /* parameter not a Font */
    int BadMatch = 8;    /* parameter mismatch */
    int BadDrawable = 9;    /* parameter not a Pixmap or Window */
    int BadAccess = 10;    /* depending on context:
                     - key/button already grabbed
                     - attempt to free an illegal
                       cmap entry
                     - attempt to store into a read-only
                       color map entry.
                     - attempt to modify the access control
                       list from other than the local host.
                    */
    int BadAlloc = 11;    /* insufficient resources */
    int BadColor = 12;    /* no such colormap */
    int BadGC = 13;    /* parameter not a GC */
    int BadIDChoice = 14;    /* choice not in range or already used */
    int BadName = 15;    /* font or color name doesn't exist */
    int BadLength = 16;    /* Request length incorrect */
    int BadImplementation = 17;    /* server is defective */

    int FirstExtensionError = 128;
    int LastExtensionError = 255;

    /*****************************************************************
     * WINDOW DEFINITIONS
     *****************************************************************/

    /* Window classes used by CreateWindow */
    /* Note that CopyFromParent is already defined as 0 above */
    int InputOutput = 1;
    int InputOnly = 2;

    /* Window attributes for CreateWindow and ChangeWindowAttributes */
    int CWBackPixmap = (1<<0);
    int CWBackPixel = (1<<1);
    int CWBorderPixmap = (1<<2);
    int CWBorderPixel = (1<<3);
    int CWBitGravity = (1<<4);
    int CWWinGravity = (1<<5);
    int CWBackingStore = (1<<6);
    int CWBackingPlanes = (1<<7);
    int CWBackingPixel = (1<<8);
    int CWOverrideRedirect = (1<<9);
    int CWSaveUnder = (1<<10);
    int CWEventMask = (1<<11);
    int CWDontPropagate = (1<<12);
    int CWColormap = (1<<13);
    int CWCursor = (1<<14);

    /* ConfigureWindow structure */
    int CWX = (1<<0);
    int CWY = (1<<1);
    int CWWidth = (1<<2);
    int CWHeight = (1<<3);
    int CWBorderWidth = (1<<4);
    int CWSibling = (1<<5);
    int CWStackMode = (1<<6);


    /* Bit Gravity */
    int ForgetGravity = 0;
    int NorthWestGravity = 1;
    int NorthGravity = 2;
    int NorthEastGravity = 3;
    int WestGravity = 4;
    int CenterGravity = 5;
    int EastGravity = 6;
    int SouthWestGravity = 7;
    int SouthGravity = 8;
    int SouthEastGravity = 9;
    int StaticGravity = 10;

    /* Window gravity + bit gravity above */
    int UnmapGravity = 0;

    /* Used in CreateWindow for backing-store hint */
    int NotUseful = 0;
    int WhenMapped = 1;
    int Always = 2;

    /* Used in GetWindowAttributes reply */
    int IsUnmapped = 0;
    int IsUnviewable = 1;
    int IsViewable = 2;

    /* Used in ChangeSaveSet */
    int SetModeInsert = 0;
    int SetModeDelete = 1;

    /* Used in ChangeCloseDownMode */
    int DestroyAll = 0;
    int RetainPermanent = 1;
    int RetainTemporary = 2;

    /* Window stacking method (in configureWindow) */
    int Above = 0;
    int Below = 1;
    int TopIf = 2;
    int BottomIf = 3;
    int Opposite = 4;

    /* Circulation direction */
    int RaiseLowest = 0;
    int LowerHighest = 1;

    /* Property modes */
    int PropModeReplace = 0;
    int PropModePrepend = 1;
    int PropModeAppend = 2;

    /*****************************************************************
     * GRAPHICS DEFINITIONS
     *****************************************************************/

    /* graphics functions, as in GC.alu */
    int GXclear = 0x0;        /* 0 */
    int GXand = 0x1;        /* src AND dst */
    int GXandReverse = 0x2;        /* src AND NOT dst */
    int GXcopy = 0x3;        /* src */
    int GXandInverted = 0x4;        /* NOT src AND dst */
    int GXnoop = 0x5;        /* dst */
    int GXxor = 0x6;        /* src XOR dst */
    int GXor = 0x7;        /* src OR dst */
    int GXnor = 0x8;        /* NOT src AND NOT dst */
    int GXequiv = 0x9;        /* NOT src XOR dst */
    int GXinvert = 0xa;        /* NOT dst */
    int GXorReverse = 0xb;        /* src OR NOT dst */
    int GXcopyInverted = 0xc;        /* NOT src */
    int GXorInverted = 0xd;        /* NOT src OR dst */
    int GXnand = 0xe;        /* NOT src OR NOT dst */
    int GXset = 0xf;        /* 1 */

    /* LineStyle */
    int LineSolid = 0;
    int LineOnOffDash = 1;
    int LineDoubleDash = 2;

    /* capStyle */
    int CapNotLast = 0;
    int CapButt = 1;
    int CapRound = 2;
    int CapProjecting = 3;

    /* joinStyle */
    int JoinMiter = 0;
    int JoinRound = 1;
    int JoinBevel = 2;

    /* fillStyle */
    int FillSolid = 0;
    int FillTiled = 1;
    int FillStippled = 2;
    int FillOpaqueStippled = 3;

    /* fillRule */
    int EvenOddRule = 0;
    int WindingRule = 1;

    /* subwindow mode */
    int ClipByChildren = 0;
    int IncludeInferiors = 1;

    /* SetClipRectangles ordering */
    int Unsorted = 0;
    int YSorted = 1;
    int YXSorted = 2;
    int YXBanded = 3;

    /* CoordinateMode for drawing routines */
    int CoordModeOrigin = 0;    /* relative to the origin */
    int CoordModePrevious = 1;    /* relative to previous point */

    /* Polygon shapes */
    int Complex = 0;    /* paths may intersect */
    int Nonconvex = 1;    /* no paths intersect, but not convex */
    int Convex = 2;    /* wholly convex */

    /* Arc modes for PolyFillArc */
    int ArcChord = 0;    /* join endpoints of arc */
    int ArcPieSlice = 1;    /* join endpoints to center of arc */

    /* GC components: masks used in CreateGC, CopyGC, ChangeGC, OR'ed into
       GC.stateChanges */
    int GCFunction = (1<<0);
    int GCPlaneMask = (1<<1);
    int GCForeground = (1<<2);
    int GCBackground = (1<<3);
    int GCLineWidth = (1<<4);
    int GCLineStyle = (1<<5);
    int GCCapStyle = (1<<6);
    int GCJoinStyle = (1<<7);
    int GCFillStyle = (1<<8);
    int GCFillRule = (1<<9);
    int GCTile = (1<<10);
    int GCStipple = (1<<11);
    int GCTileStipXOrigin = (1<<12);
    int GCTileStipYOrigin = (1<<13);
    int GCFont = (1<<14);
    int GCSubwindowMode = (1<<15);
    int GCGraphicsExposures = (1<<16);
    int GCClipXOrigin = (1<<17);
    int GCClipYOrigin = (1<<18);
    int GCClipMask = (1<<19);
    int GCDashOffset = (1<<20);
    int GCDashList = (1<<21);
    int GCArcMode = (1<<22);

    int GCLastBit = 22;
    /*****************************************************************
     * FONTS
     *****************************************************************/

    /* used in QueryFont -- draw direction */
    int FontLeftToRight = 0;
    int FontRightToLeft = 1;

    int FontChange = 255;

    /*****************************************************************
     *  IMAGING
     *****************************************************************/

    /* ImageFormat -- PutImage, GetImage */
    int XYBitmap = 0;    /* depth 1, XYFormat */
    int XYPixmap = 1;    /* depth == drawable depth */
    int ZPixmap = 2;    /* depth == drawable depth */

    /*****************************************************************
     *  COLOR MAP STUFF
     *****************************************************************/

    /* For CreateColormap */
    int AllocNone = 0;    /* create map with no entries */
    int AllocAll = 1;    /* allocate entire map writeable */


    /* Flags used in StoreNamedColor, StoreColors */
    int DoRed = (1<<0);
    int DoGreen = (1<<1);
    int DoBlue = (1<<2);

    /*****************************************************************
     * CURSOR STUFF
     *****************************************************************/

    /* QueryBestSize Class */
    int CursorShape = 0;    /* largest size that can be displayed */
    int TileShape = 1;    /* size tiled fastest */
    int StippleShape = 2;    /* size stippled fastest */

    /*****************************************************************
     * KEYBOARD/POINTER STUFF
     *****************************************************************/

    int AutoRepeatModeOff = 0;
    int AutoRepeatModeOn = 1;
    int AutoRepeatModeDefault = 2;

    int LedModeOff = 0;
    int LedModeOn = 1;

    /* masks for ChangeKeyboardControl */
    int KBKeyClickPercent = (1<<0);
    int KBBellPercent = (1<<1);
    int KBBellPitch = (1<<2);
    int KBBellDuration = (1<<3);
    int KBLed = (1<<4);
    int KBLedMode = (1<<5);
    int KBKey = (1<<6);
    int KBAutoRepeatMode = (1<<7);

    int MappingSuccess = 0;
    int MappingBusy = 1;
    int MappingFailed = 2;

    int MappingModifier = 0;
    int MappingKeyboard = 1;
    int MappingPointer = 2;

    /*****************************************************************
     * SCREEN SAVER STUFF
     *****************************************************************/

    int DontPreferBlanking = 0;
    int PreferBlanking = 1;
    int DefaultBlanking = 2;

    int DisableScreenSaver = 0;
    int DisableScreenInterval = 0;

    int DontAllowExposures = 0;
    int AllowExposures = 1;
    int DefaultExposures = 2;

    /* for ForceScreenSaver */
    int ScreenSaverReset = 0;
    int ScreenSaverActive = 1;

    /*****************************************************************
     * HOSTS AND CONNECTIONS
     *****************************************************************/

    /* for ChangeHosts */
    int HostInsert = 0;
    int HostDelete = 1;

    /* for ChangeAccessControl */
    int EnableAccess = 1;
    int DisableAccess = 0;

    /* Display classes  used in opening the connection
     * Note that the statically allocated ones are even numbered and the
     * dynamically changeable ones are odd numbered */
    int StaticGray = 0;
    int GrayScale = 1;
    int StaticColor = 2;
    int PseudoColor = 3;
    int TrueColor = 4;
    int DirectColor = 5;

    /* Byte order  used in imageByteOrder and bitmapBitOrder */
    int LSBFirst = 0;
    int MSBFirst = 1;



    /*****************************************************************
     * DEFINITIONS OF SPECIFIC EVENTS
     *****************************************************************/

    public static class XEvent extends Union {
        public int type;
        public XAnyEvent xany;
        public XKeyEvent xkey;
        public XButtonEvent xbutton;
        public XMotionEvent xmotion;
        public XCrossingEvent xcrossing;
        public XFocusChangeEvent xfocus;
        public XExposeEvent xexpose;
        public XGraphicsExposeEvent xgraphicsexpose;
        public XNoExposeEvent xnoexpose;
        public XVisibilityEvent xvisibility;
        public XCreateWindowEvent xcreatewindow;
        public XDestroyWindowEvent xdestroywindow;
        public XUnmapEvent xunmap;
        public XMapEvent xmap;
        public XMapRequestEvent xmaprequest;
        public XReparentEvent xreparent;
        public XConfigureEvent xconfigure;
        public XGravityEvent xgravity;
        public XResizeRequestEvent xresizerequest;
        public XConfigureRequestEvent xconfigurerequest;
        public XCirculateEvent xcirculate;
        public XCirculateRequestEvent xcirculaterequest;
        public XPropertyEvent xproperty;
        public XSelectionClearEvent xselectionclear;
        public XSelectionRequestEvent xselectionrequest;
        public XSelectionEvent xselection;
        public XColormapEvent xcolormap;
        public XClientMessageEvent xclient;
        public XMappingEvent xmapping;
        public XErrorEvent xerror;
        public XKeymapEvent xkeymap;
        public XGenericEvent xgeneric;
        public XGenericEventCookie xcookie;
        public NativeLong[] pad = new NativeLong[24];
    }

    @FieldOrder({"type", "serial", "send_event", "display", "window"})
    public static class XAnyEvent extends Structure {
        public int type;
        public NativeLong serial;   // # of last request processed by server
        public int send_event;      // true if this came from a SendEvent request
        public Display display;     // Display the event was read from
        public Window window;       // window on which event was requested in event mask
    }

    @FieldOrder({"type", "serial", "send_event", "display", "window", "root", "subwindow", "time", "x", "y", "x_root", "y_root", "state", "keycode", "same_screen"})
    class XKeyEvent extends Structure {
        public int type;            // of event
        public NativeLong serial;   // # of last request processed by server
        public int send_event;      // true if this came from a SendEvent request
        public Display display;     // public Display the event was read from
        public Window window;       // "event" window it is reported relative to
        public Window root;         // root window that the event occurred on
        public Window subwindow;    // child window
        public NativeLong time;     // milliseconds
        public int x, y;            // pointer x, y coordinates in event window
        public int x_root, y_root;  // coordinates relative to root
        public int state;           // key or button mask
        public int keycode;         // detail
        public int same_screen;     // same screen flag
    }

    @FieldOrder({"type", "serial", "send_event", "display", "window", "root", "subwindow", "time", "x", "y", "x_root", "y_root", "state", "button", "same_screen"})
    class XButtonEvent extends Structure {
        public int type;            // of event
        public NativeLong serial;   // # of last request processed by server
        public int send_event;      // true if this came from a SendEvent request
        public Display display;     // Display the event was read from
        public Window window;       // "event" window it is reported relative to
        public Window root;         // root window that the event occurred on
        public Window subwindow;    // child window
        public NativeLong time;     // milliseconds
        public int x, y;            // pointer x, y coordinates in event window
        public int x_root, y_root;  // coordinates relative to root
        public int state;           // key or button mask
        public int button;          // detail
        public int same_screen;     // same screen flag
    }

    class XButtonPressedEvent extends XButtonEvent {
    }

    class XButtonReleasedEvent extends XButtonEvent {
    }

    @FieldOrder({"type", "serial", "send_event", "display", "window", "message_type", "format", "data"})
    public static class XClientMessageEvent extends Structure {
        public int type;                // ClientMessage
        public NativeLong serial;       // # of last request processed by server
        public int send_event;          // true if this came from a SendEvent request
        public Display display;         // Display the event was read from
        public Window window;
        public Atom message_type;
        public int format;
        public Data data;

        public static class Data extends Union {
            public byte b[] = new byte[20];
            public short s[] = new short[10];
            public NativeLong[] l = new NativeLong[5];
        }
    }

    @FieldOrder({"type", "serial", "send_event", "display", "window", "root", "subwindow", "time", "x", "y", "x_root", "y_root", "state", "is_hint", "same_screen"})
    class XMotionEvent extends Structure {
        public int type;            // of event
        public NativeLong serial;   // # of last request processed by server
        public int send_event;      // true if this came from a SendEvent request
        public Display display;     // Display the event was read from
        public Window window;       // "event" window reported relative to
        public Window root;         // root window that the event occurred on
        public Window subwindow;    // child window
        public NativeLong time;     // milliseconds
        public int x, y;            // pointer x, y coordinates in event window
        public int x_root, y_root;  // coordinates relative to root
        public int state;           // key or button mask
        public byte is_hint;        // detail
        public int same_screen;     // same screen flag
    }

    class XPointerMovedEvent extends XMotionEvent {
    }

    @FieldOrder({"type", "serial", "send_event", "display", "window", "root", "subwindow", "time", "x", "y", "x_root", "y_root", "mode", "detail", "same_screen", "focus", "state"})
    class XCrossingEvent extends Structure {
        public int type;            // of event
        public NativeLong serial;   // # of last request processed by server
        public int send_event;      // true if this came from a SendEvent request
        public Display display;     // Display the event was read from
        public Window window;       // "event" window reported relative to
        public Window root;         // root window that the event occurred on
        public Window subwindow;    // child window
        public NativeLong time;     // milliseconds
        public int x, y;            // pointer x, y coordinates in event window
        public int x_root, y_root;  // coordinates relative to root
        public int mode;            // NotifyNormal, NotifyGrab, NotifyUngrab
        public int detail;
        /*
        * NotifyAncestor, NotifyVirtual, NotifyInferior,
        * NotifyNonlinear,NotifyNonlinearVirtual
        */
        public int same_screen;     // same screen flag
        public int focus;           // boolean focus
        public int state;           // key or button mask
    }

    class XEnterWindowEvent extends XCrossingEvent {
    }

    class XLeaveWindowEvent extends XCrossingEvent {
    }

    @FieldOrder({"type", "serial", "send_event", "display", "window", "mode", "detail"})
    class XFocusChangeEvent extends Structure {
        public int type;            // FocusIn or FocusOut
        public NativeLong serial;   // # of last request processed by server
        public int send_event;      // true if this came from a SendEvent request
        public Display display;     // Display the event was read from
        public Window window;       // window of event
        public int mode;            // NotifyNormal, NotifyWhileGrabbed, NotifyGrab, NotifyUngrab
        public int detail;
        /*
        * NotifyAncestor, NotifyVirtual, NotifyInferior,
        * NotifyNonlinear,NotifyNonlinearVirtual, NotifyPointer,
        * NotifyPointerRoot, NotifyDetailNone
        */
    }

    class XFocusInEvent extends XFocusChangeEvent {
    }

    class XFocusOutEvent extends XFocusChangeEvent {
    }

    @FieldOrder({"type", "serial", "send_event", "display", "window", "x", "y", "width", "height", "count"})
    class XExposeEvent extends Structure {
        public int type;
        public NativeLong serial;   // # of last request processed by server
        public int send_event;      // true if this came from a SendEvent request
        public Display display;     // Display the event was read from
        public Window window;
        public int x, y;
        public int width, height;
        public int count;           // if non-zero, at least this many more
    }

    @FieldOrder({"type", "serial", "send_event", "display", "drawable", "x", "y", "width", "height", "count", "major_code", "minor_code"})
    class XGraphicsExposeEvent extends Structure {
        public int type;
        public NativeLong serial;   // # of last request processed by server
        public int send_event;      // true if this came from a SendEvent request
        public Display display;     // Display the event was read from
        public Drawable drawable;
        public int x, y;
        public int width, height;
        public int count;           // if non-zero, at least this many more
        public int major_code;      // core is CopyArea or CopyPlane
        public int minor_code;      // not defined in the core
    }

    @FieldOrder({"type", "serial", "send_event", "display", "drawable", "major_code", "minor_code"})
    class XNoExposeEvent extends Structure {
        public int type;
        public NativeLong serial;   // # of last request processed by server
        public int send_event;      // true if this came from a SendEvent request
        public Display display;     // Display the event was read from
        public Drawable drawable;
        public int major_code;      // core is CopyArea or CopyPlane
        public int minor_code;      // not defined in the core
    }

    @FieldOrder({"type", "serial", "send_event", "display", "window", "state"})
    class XVisibilityEvent extends Structure {
        public int type;
        public NativeLong serial;   // # of last request processed by server
        public int send_event;      // true if this came from a SendEvent request
        public Display display;     // Display the event was read from
        public Window window;
        public int state;           // Visibility state
    }

    @FieldOrder({"type", "serial", "send_event", "display", "parent", "window", "x", "y", "width", "height", "border_width", "override_redirect"})
    class XCreateWindowEvent extends Structure {
        public int type;
        public NativeLong serial;   // # of last request processed by server
        public int send_event;      // true if this came from a SendEvent request
        public Display display;     // Display the event was read from
        public Window parent;       // parent of the window
        public Window window;       // window id of window created
        public int x, y;            // window location
        public int width, height;   // size of window
        public int border_width;    // border width
        public int override_redirect; // creation should be overridden
    }

    @FieldOrder({"type", "serial", "send_event", "display", "event", "window"})
    class XDestroyWindowEvent extends Structure {
        public int type;
        public NativeLong serial;   // # of last request processed by server
        public int send_event;      // true if this came from a SendEvent request
        public Display display;     // Display the event was read from
        public Window event;
        public Window window;
    }

    @FieldOrder({"type", "serial", "send_event", "display", "event", "window", "from_configure"})
    class XUnmapEvent extends Structure {
        public int type;
        public NativeLong serial;   // # of last request processed by server
        public int send_event;      // true if this came from a SendEvent request
        public Display display;     // Display the event was read from
        public Window event;
        public Window window;
        public int from_configure;
    }

    @FieldOrder({"type", "serial", "send_event", "display", "event", "window", "override_redirect"})
    class XMapEvent extends Structure {
        public int type;
        public NativeLong serial;   // # of last request processed by server
        public int send_event;      // true if this came from a SendEvent request
        public Display display;     // Display the event was read from
        public Window event;
        public Window window;
        public int override_redirect; // boolean, is override set...
    }

    @FieldOrder({"type", "serial", "send_event", "display", "parent", "window"})
    class XMapRequestEvent extends Structure {
        public int type;
        public NativeLong serial;   // # of last request processed by server
        public int send_event;      // true if this came from a SendEvent request
        public Display display;     // Display the event was read from
        public Window parent;
        public Window window;
    }

    @FieldOrder({"type", "serial", "send_event", "display", "event", "window", "parent", "x", "y", "override_redirect"})
    class XReparentEvent extends Structure {
        public int type;
        public NativeLong serial;   // # of last request processed by server
        public int send_event;      // true if this came from a SendEvent request
        public Display display;     // Display the event was read from
        public Window event;
        public Window window;
        public Window parent;
        public int x, y;
        public int override_redirect;
    }

    @FieldOrder({"type", "serial", "send_event", "display", "event", "window", "x", "y", "width", "height", "border_width", "above", "override_redirect"})
    class XConfigureEvent extends Structure {
        public int type;
        public NativeLong serial;   // # of last request processed by server
        public int send_event;      // true if this came from a SendEvent request
        public Display display;     // Display the event was read from
        public Window event;
        public Window window;
        public int x, y;
        public int width, height;
        public int border_width;
        public Window above;
        public int override_redirect;
    }

    @FieldOrder({"type", "serial", "send_event", "display", "event", "window", "x", "y"})
    class XGravityEvent extends Structure {
        public int type;
        public NativeLong serial;   // # of last request processed by server
        public int send_event;      // true if this came from a SendEvent request
        public Display display;     // Display the event was read from
        public Window event;
        public Window window;
        public int x, y;
    }

    @FieldOrder({"type", "serial", "send_event", "display", "window", "width", "height"})
    class XResizeRequestEvent extends Structure {
        public int type;
        public NativeLong serial;   // # of last request processed by server
        public int send_event;      // true if this came from a SendEvent request
        public Display display;     // Display the event was read from
        public Window window;
        public int width, height;
    }

    @FieldOrder({"type", "serial", "send_event", "display", "parent", "window", "x", "y", "width", "height", "border_width", "above", "detail", "value_mask"})
    class XConfigureRequestEvent extends Structure {
        public int type;
        public NativeLong serial;   // # of last request processed by server
        public int send_event;      // true if this came from a SendEvent request
        public Display display;     // Display the event was read from
        public Window parent;
        public Window window;
        public int x, y;
        public int width, height;
        public int border_width;
        public Window above;
        public int detail;          // Above, Below, TopIf, BottomIf, Opposite
        public NativeLong value_mask;
    }

    @FieldOrder({"type", "serial", "send_event", "display", "event", "window", "place"})
    class XCirculateEvent extends Structure {
        public int type;
        public NativeLong serial;   // # of last request processed by server
        public int send_event;      // true if this came from a SendEvent request
        public Display display;     // Display the event was read from
        public Window event;
        public Window window;
        public int place;           // PlaceOnTop, PlaceOnBottom
    }

    @FieldOrder({"type", "serial", "send_event", "display", "parent", "window", "place"})
    class XCirculateRequestEvent extends Structure {
        public int type;
        public NativeLong serial;   // # of last request processed by server
        public int send_event;      // true if this came from a SendEvent request
        public Display display;     // Display the event was read from
        public Window parent;
        public Window window;
        public int place;           // PlaceOnTop, PlaceOnBottom
    }

    @FieldOrder({"type", "serial", "send_event", "display", "window", "atom", "time", "state"})
    class XPropertyEvent extends Structure {
        public int type;
        public NativeLong serial;   // # of last request processed by server
        public int send_event;      // true if this came from a SendEvent request
        public Display display;     // Display the event was read from
        public Window window;
        public Atom atom;
        public NativeLong time;
        public int state;           // NewValue, Deleted
    }

    @FieldOrder({"type", "serial", "send_event", "display", "window", "selection", "time"})
    class XSelectionClearEvent extends Structure {
        public int type;
        public NativeLong serial;   // # of last request processed by server
        public int send_event;      // true if this came from a SendEvent request
        public Display display;     // Display the event was read from
        public Window window;
        public Atom selection;
        public NativeLong time;
    }

    @FieldOrder({"type", "serial", "send_event", "display", "owner", "requestor", "selection", "target", "property", "time"})
    class XSelectionRequestEvent extends Structure {
        public int type;
        public NativeLong serial;   // # of last request processed by server
        public int send_event;      // true if this came from a SendEvent request
        public Display display;     // Display the event was read from
        public Window owner;
        public Window requestor;
        public Atom selection;
        public Atom target;
        public Atom property;
        public NativeLong time;
    }

    @FieldOrder({"type", "serial", "send_event", "display", "requestor", "selection", "target", "property", "time"})
    class XSelectionEvent extends Structure {
        public int type;
        public NativeLong serial;   // # of last request processed by server
        public int send_event;      // true if this came from a SendEvent request
        public Display display;     // Display the event was read from
        public Window requestor;
        public Atom selection;
        public Atom target;
        public Atom property;       // ATOM or None
        public NativeLong time;
    }

    @FieldOrder({"type", "serial", "send_event", "display", "window", "colormap", "c_new", "state" })
    class XColormapEvent extends Structure {
        public int type;
        public NativeLong serial;   // # of last request processed by server
        public int send_event;      // true if this came from a SendEvent request
        public Display display;     // Display the event was read from
        public Window window;
        public Colormap colormap;   // COLORMAP or None
        public int c_new;           // C++
        public int state;           // ColormapInstalled, ColormapUninstalled
    }

    @FieldOrder({"type", "serial", "send_event", "display", "window", "request", "first_keycode", "count"})
    class XMappingEvent extends Structure {
        public int type;
        public NativeLong serial;   // # of last request processed by server
        public int send_event;      // true if this came from a SendEvent request
        public Display display;     // Display the event was read from
        public Window window;       // unused
        public int request;         // one of MappingModifier, MappingKeyboard, MappingPointer
        public int first_keycode;   // first keycode
        public int count;           // defines range of change w. first_keycode*/
    }

    @FieldOrder({"type", "display", "serial", "error_code", "request_code", "minor_code", "resourceid"})
    class XErrorEvent extends Structure {
        public int type;
        public Display display;     // Display the event was read from
        public NativeLong serial;   // serial number of failed request
        public byte error_code;     // error code of failed request
        public byte request_code;   // Major op-code of failed request
        public byte minor_code;     // Minor op-code of failed request
        public XID resourceid;      // resource id
    }

    // generated on EnterWindow and FocusIn  when KeyMapState selected
    @FieldOrder({"type", "serial", "send_event", "display", "window", "key_vector"})
    class XKeymapEvent extends Structure {
        public int type;
        public NativeLong serial;   // # of last request processed by server
        public int send_event;      // true if this came from a SendEvent request
        public Display display;     // Display the event was read from
        public Window window;
        public byte key_vector[] = new byte[32];
    }

    /**
     * This event is the standard event for all newer extensions.
     */
    @FieldOrder({"type", "serial", "send_event", "display", "extension", "evtype"})
    class XGenericEvent extends Structure {
        public int type;            // of event. Always GenericEvent
        public NativeLong serial;   // # of last request processed by server
        public int send_event;      // true if this came from a SendEvent request
        public Display display;     // Display the event was read from
        public int extension;       // major opcode of extension that caused the event
        public int evtype;          // actual event type
    }

    @FieldOrder({"type", "serial", "send_event", "display", "extension", "evtype", "cookie", "data"})
    class XGenericEventCookie extends Structure {
        public int type;            // of event. Always GenericEvent
        public NativeLong serial;   // # of last request processed by server
        public int send_event;      // true if this came from a SendEvent request
        public Display display;     // Display the event was read from
        public int extension;       // major opcode of extension that caused the event
        public int evtype;          // actual event type
        public int cookie;
        public Pointer data;
    }

    int XSelectInput(Display display, Window window, NativeLong eventMask);
    int XSendEvent(Display display, Window w, int propagate, NativeLong event_mask, XEvent event_send);

    int XNextEvent(Display display, XEvent event_return);

    int XPeekEvent(Display display, XEvent event_return);
    int XWindowEvent(Display display, Window w, NativeLong event_mask, XEvent event_return);
    boolean XCheckWindowEvent(Display display, Window w, NativeLong event_mask, XEvent event_return);
    int XMaskEvent(Display display, NativeLong event_mask, XEvent event_return);
    boolean XCheckMaskEvent(Display display, NativeLong event_mask, XEvent event_return);
    boolean XCheckTypedEvent(Display display, int event_type, XEvent event_return);
    boolean XCheckTypedWindowEvent(Display display, Window w, int event_type, XEvent event_return);

    boolean XGetEventData(Display display, XGenericEventCookie cookie);
    void XFreeEventData(Display display, XGenericEventCookie cookie);

    /** Returns an {@link XWMHints} which must be freed by {@link #XFree}.
     * @param display target Display
     * @param window target Window
     * @return XWMHints structure for the requested window
     */
    XWMHints XGetWMHints(Display display, Window window);
    int XGetWMName(Display display, Window window,
                   XTextProperty text_property_return);
    /** Returns an array of {@link XVisualInfo} which must be freed by {@link #XFree}.
     * Use {@link XVisualInfo#toArray(int)
     * toArray(nitems_return.getValue()} to obtain the array.
     * @param display target Display
     * @param vinfo_mask mask of data to retrieve
     * @param vinfo_template template struct to use as basis for returned data
     * @param nitems_return number size of returned array
     * @return returned array
     */
    XVisualInfo XGetVisualInfo(Display display, NativeLong vinfo_mask,
                               XVisualInfo vinfo_template,
                               IntByReference nitems_return);
    Colormap XCreateColormap(Display display, Window w, Visual visual, int alloc);
    int XGetWindowProperty(Display display, Window w, Atom property,
                           NativeLong long_offset,
                           NativeLong long_length, boolean delete,
                           Atom reg_type,
                           AtomByReference actual_type_return,
                           IntByReference actual_format_return,
                           NativeLongByReference nitems_return,
                           NativeLongByReference bytes_after_return,
                           PointerByReference prop_return);
    int XChangeProperty(Display display, Window w, Atom property, Atom type,
                        int format, int mode, Pointer data, int nelements);
    int XDeleteProperty(Display display, Window w, Atom property);
    // Atom XInternAtom(Display *display, char *atom_name, Bool only_if_exists);
    Atom XInternAtom(Display display, String name, boolean only_if_exists);
    // char *XGetAtomName(Display *display, Atom atom);
    String XGetAtomName(Display display, Atom atom);
    int XCopyArea(Display dpy, Drawable src, Drawable dst, GC gc,
                  int src_x, int src_y, int w, int h, int dst_x, int dst_y);

    XImage XCreateImage(Display dpy, Visual visual, int depth, int format,
                        int offset, Pointer data, int width, int height,
                        int bitmap_pad, int bytes_per_line);
    int XPutImage(Display dpy, Drawable d, GC gc, XImage image,
                  int src_x, int src_y, int dest_x, int dest_y,
                  int width, int height);
    int XDestroyImage(XImage image);

    /**
     * Installs an error handler
     *
     * @param handler Specifies the program's supplied error handler
     * @return The previous error handler
     */
    XErrorHandler XSetErrorHandler(XErrorHandler handler);

    public interface XErrorHandler extends Callback {
        public int apply(Display display, XErrorEvent errorEvent);
    }


    /*
     * KeySyms, Keycodes, Keymaps
     */

    String XKeysymToString(KeySym keysym);
    KeySym XStringToKeysym(String string);
    byte XKeysymToKeycode(Display display, KeySym keysym);
    KeySym XKeycodeToKeysym(Display display, byte keycode, int index);

    /**
     * Establishes a passive grab on the keyboard
     *
     * @param display Specifies the connection to the X server.
     * @param keyCode Specifies the KeyCode or {@link #AnyKey}.
     * @param modifiers Specifies the set of keymasks or {@link #AnyModifier}.
     *      The mask is the bitwise inclusive OR of the valid keymask bits.
     * @param grab_window Specifies the grab window.
     * @param ownerEvents Specifies a Boolean value that indicates whether the keyboard events are to be reported as usual.
     * @param pointerMode Specifies further processing of pointer events. You can pass {@link #GrabModeSync} or {@link #GrabModeAsync}.
     * @param keyBoardMode Specifies further processing of keyboard events. You can pass {@link #GrabModeSync} or {@link #GrabModeAsync}.
     * @return nothing
     */
    int XGrabKey(Display display, int keyCode, int modifiers, Window grab_window, int ownerEvents, int pointerMode, int keyBoardMode);

    /**
     * The XUngrabKey() function releases the key combination on the specified window if it was grabbed by this client.
     *
     * @param display Specifies the connection to the X server.
     * @param keyCode Specifies the KeyCode or {@link #AnyKey}.
     * @param modifiers Specifies the set of keymasks or {@link #AnyModifier}.
     *      The mask is the bitwise inclusive OR of the valid keymask bits
     * @param grab_window Specifies the grab window.
     * @return nothing
     */
    int XUngrabKey(Display display, int keyCode, int modifiers, Window grab_window);

    /**
     * Actively grabs control of the keyboard and generates FocusIn and FocusOut events
     *
     * @param display Specifies the connection to the X server.
     * @param grab_window Specifies the grab window.
     * @param owner_events Specifies a Boolean value that indicates whether the keyboard events are to be reported as usual.
     * @param pointer_mode Specifies further processing of pointer events. You can pass GrabModeSync or GrabModeAsync.
     * @param keyboard_mode Specifies further processing of keyboard events. You can pass GrabModeSync or GrabModeAsync.
     * @param time Specifies the time. You can pass either a timestamp or CurrentTime.
     * @return nothing
     */
    int XGrabKeyboard(Display display, Window grab_window, int owner_events, int pointer_mode, int keyboard_mode, NativeLong time);

    /**
     * Releases the keyboard and any queued events if this client has it actively grabbed from either XGrabKeyboard() or XGrabKey().
     * @param display Specifies the connection to the X server.
     * @param time Specifies the time. You can pass either a timestamp or CurrentTime.
     * @return nothing
     */
    int XUngrabKeyboard(Display display, NativeLong time);

    /**
     * The XFetchName() function returns the name of the specified window. If it succeeds, it returns a nonzero status;
     * otherwise, no name has been set for the window, and it returns zero. If the WM_NAME property has not been set for this
     * window, XFetchName() sets window_name_return to NULL. If the data returned by the server is in the Latin Portable Character
     * Encoding, then the returned string is in the Host Portable Character Encoding. Otherwise, the result is implementation
     * dependent. When finished with it, a client must free the window name string using XFree().
     * @param display Specifies the connection to the X server.
     * @param window Specifies the window.
     * @param window_name_return Returns the window name, which is a null-terminated string.
     * @return Integer. Nonzero = success, zero = no name has been set.
     */
    int XFetchName(Display display, Window window, PointerByReference window_name_return);

    //int XChangeKeyboardMapping(Display display, int first_keycode, int keysyms_per_keycode, KeySym *keysyms, int num_codes);
    /** Defines the symbols for the specified number of KeyCodes starting with
     * first_keycode. The symbols for KeyCodes outside this range remain
     * unchanged. The number of elements in keysyms must be: num_codes *
     * keysyms_per_keycode. The specified first_keycode must be greater than
     * or equal to min_keycode returned by XDisplayKeycodes, or a BadValue
     * error results. In addition, the following expression must be less than
     * or equal to max_keycode as returned by XDisplayKeycodes, or a BadValue
     * error results: first_keycode + num_codes - 1.
     * @param display target Display
     * @param first_keycode first keycode
     * @param keysyms_per_keycode number of syms per keycode
     * @param keysyms array of KeySym
     * @param num_codes number of keycodes to be changed
     * @return status
     */
    int XChangeKeyboardMapping(Display display, int first_keycode, int keysyms_per_keycode, KeySym[] keysyms, int num_codes);
    /** Returns the symbols for the specified number of KeyCodes starting with
     * first_keycode. The value specified in first_keycode must be greater
     * than or equal to min_keycode as returned by XDisplayKeycodes, or a
     * BadValue  error results. In addition, the following expression must be
     * less than or equal to max_keycode as returned by XDisplayKeycodes:
     * first_keycode + keycode_count - 1. If this is not the case, a BadValue
     * error results. The number of elements in the KeySyms list is:
     * keycode_count * keysyms_per_keycode_return. KeySym number N, counting
     * from zero, for KeyCode K has the following index in the list, counting
     * from zero: (K - first_code) * keysyms_per_code_return + N. The X server
     * arbitrarily chooses the keysyms_per_keycode_return value to be large
     * enough to report all requested symbols. A special KeySym value of
     * NoSymbol is used to fill in unused elements for individual KeyCodes. To
     * free the storage returned by XGetKeyboardMapping, use XFree.
     * @param display target Display
     * @param first_keycode first keycode to be changed or returned
     * @param keycode_count how many
     * @param keysyms_per_keycode_return number of syms per keycode
     * @return KeySym for the requested code
     */
    KeySym XGetKeyboardMapping(Display display, byte first_keycode, int keycode_count, IntByReference keysyms_per_keycode_return);
    /** Returns the min-keycodes and max-keycodes supported by the specified
     * display. The minimum number of KeyCodes returned is never less than 8,
     * and the maximum number of KeyCodes returned is never greater than
     * 255. Not all KeyCodes in this range are required to have corresponding
     * keys.
     * @param display target Display
     * @param min_keycodes_return smallest keycode
     * @param max_keycodes_return largest keycode
     * @return status
     */
    int XDisplayKeycodes(Display display, IntByReference min_keycodes_return, IntByReference max_keycodes_return);
    /** Specifies the KeyCodes of the keys (if any) that are to be used as
     * modifiers. If it succeeds, the X server generates a MappingNotify
     * event, and XSetModifierMapping returns MappingSuccess. X permits at
     * most 8 modifier keys. If more than 8 are specified in the
     * XModifierKeymap  structure, a BadLength error results.
     * @param display target Display
     * @param modmap modifier specification
     * @return status
     */
    int XSetModifierMapping(Display display, XModifierKeymapRef modmap);
    /** The XGetModifierMapping  function returns a pointer to a newly created
     * XModifierKeymap structure that contains the keys being used as
     * modifiers. The structure should be freed after use by calling
     * XFreeModifiermap. If only zero values appear in the set for any
     * modifier, that modifier is disabled.
     * @param display target Display
     * @return modifier specification
     */
    XModifierKeymapRef XGetModifierMapping(Display display);
    /** Returns a pointer to XModifierKeymap structure for later use.
     * @param max_keys_per_mod number of keys to include in the mapping
     * @return modifier specification struct
     */
    XModifierKeymapRef XNewModifiermap(int max_keys_per_mod);
    /** Adds the specified KeyCode to the set that controls the specified
     * modifier and returns the resulting XModifierKeymap  structure (expanded
     * as needed).
     * @param modmap modifier map
     * @param keycode_entry keycode entry
     * @param modifier modifier
     * @return modifier specification struct
     */
    XModifierKeymapRef XInsertModifiermapEntry(XModifierKeymapRef modmap, byte keycode_entry, int modifier);
    /** Deletes the specified KeyCode from the set that controls the specified
     * modifier and returns a pointer to the resulting XModifierKeymap
     * structure.
     * @param modmap modifier map
     * @param keycode_entry keycode entry
     * @param modifier modifier
     * @return modifier specification struct
     */
    XModifierKeymapRef XDeleteModifiermapEntry(XModifierKeymapRef modmap, byte keycode_entry, int modifier);
    /** Frees the specified XModifierKeymap structure.
     * @param modmap modifier map to be freed
     * @return status
     */
    int XFreeModifiermap(XModifierKeymapRef modmap);


    /** Changes the keyboard control state.
     * @param display display
     * @param value_mask disjunction of KBKeyClickPercent, KBBellPercent, KBBellPitch, KBBellDuration, KBLed, KBLedMode, KBKey, KBAutoRepeatMode
     * @param values control ref values
     * @return status
     */
    int XChangeKeyboardControl(Display display, NativeLong value_mask, XKeyboardControlRef values);
    /** Returns the current control values for the keyboard to the
     * XKeyboardState structure.
     * @param display display
     * @param values_return keyboard state structure
     * @return status
     */
    int XGetKeyboardControl(Display display, XKeyboardStateRef values_return);
    /** Turns on auto-repeat for the keyboard on the specified display.
     * @param display display
     * @return status
     */
    int XAutoRepeatOn(Display display);
    /** Turns off auto-repeat for the keyboard on the specified display.
     * @param display display
     * @return status
     */
    int XAutoRepeatOff(Display display);
    /** Rings the bell on the keyboard on the specified display, if
     * possible. The specified volume is relative to the base volume for the
     * keyboard. If the value for the percent argument is not in the range
     * -100 to 100 inclusive, a BadValue error results. The volume at which
     * the bell rings when the percent argument is nonnegative is: base -
     * [(base * percent) / 100] + percent. The volume at which the bell rings
     * when the percent argument is negative is: base + [(base * percent) /
     * 100]. To change the base volume of the bell, use
     * XChangeKeyboardControl.
     * @param display display
     * @param percent value to set
     * @return status
     */
    int XBell(Display display, int percent);
    /** Returns a bit vector for the logical state of the keyboard, where each
     * bit set to 1 indicates that the corresponding key is currently pressed
     * down. The vector is represented as 32 bytes. Byte N (from 0) contains
     * the bits for keys 8N to 8N + 7 with the least significant bit in the
     * byte representing key 8N. Note that the logical state of a device (as
     * seen by client applications) may lag the physical state if device event
     * processing is frozen.
     * @param display display
     * @param keys_return keymap
     * @return status
     */
    int XQueryKeymap(Display display, byte[] keys_return);

    /** The modifiermap member of the XModifierKeymap structure contains 8
     * sets of max_keypermod KeyCodes, one for each modifier in the order
     * Shift, Lock, Control, Mod1, Mod2, Mod3, Mod4, and Mod5. Only nonzero
     * KeyCodes have meaning in each set, and zero KeyCodes are ignored. In
     * addition, all of the nonzero KeyCodes must be in the range specified by
     * min_keycode and max_keycode in the Display structure, or a BadValue
     * error results.
     */
    @FieldOrder({"max_keypermod", "modifiermap"})
    class XModifierKeymapRef extends Structure implements Structure.ByReference{
        public int max_keypermod;   /* The server's max # of keys per modifier */
        public Pointer modifiermap;   /* An 8 by max_keypermod array of modifiers */
    }

    @FieldOrder({"key_click_percent", "bell_percent", "bell_pitch", "bell_duration", "led", "led_mode", "key", "auto_repeat_mode"})
    class XKeyboardControlRef extends Structure implements Structure.ByReference {
        /** Volume for key clicks between 0 (off) and 100 (loud) inclusive, if possible. A setting of -1 restores the default. */
        public int key_click_percent;
        /** Base volume for the bell between 0 (off) and 100 (loud) inclusive, if possible. A setting of -1 restores the default. */
        public int bell_percent;
        /** Pitch (specified in Hz) of the bell, if possible. A setting of -1 restores the default. */
        public int bell_pitch;
        /** Duration of the bell specified in milliseconds, if possible. A setting of -1 restores the default. */
        public int bell_duration;
        /** State of the LEDs. At most 32 LEDs numbered from one are supported. */
        public int led;
        /** LED mode: LedModeOn or LedModeOff. */
        public int led_mode;
        /** <code>auto_repeat_mode</code> can change the auto repeat settings of this key. */
        public int key;
        /** AutoRepeatModeOff, AutoRepeatModeOn, AutoRepeatModeDefault. */
        public int auto_repeat_mode;

        @Override
        public String toString() {
            return "XKeyboardControlByReference{" +
                    "key_click_percent=" + key_click_percent +
                    ", bell_percent=" + bell_percent +
                    ", bell_pitch=" + bell_pitch +
                    ", bell_duration=" + bell_duration +
                    ", led=" + led +
                    ", led_mode=" + led_mode +
                    ", key=" + key +
                    ", auto_repeat_mode=" + auto_repeat_mode +
                    '}';
        }
    }

    @FieldOrder({"key_click_percent", "bell_percent", "bell_pitch", "bell_duration", "led_mask", "global_auto_repeat", "auto_repeats"})
    class XKeyboardStateRef extends Structure implements Structure.ByReference {
        /** Volume for key clicks between 0 (off) and 100 (loud) inclusive, if possible. */
        public int key_click_percent;
        /** Base volume for the bell between 0 (off) and 100 (loud) inclusive, if possible. */
        public int bell_percent;
        /** Pitch (specified in Hz) of the bell, if possible. A setting of -1 restores the default. */
        public int bell_pitch;
        /** Duration of the bell specified in milliseconds, if possible. A setting of -1 restores the default. */
        public int bell_duration;
        /** State of the LEDs. At most 32 LEDs numbered from one are supported. */
        public NativeLong led_mask;
        /** Global auto repeat mode: AutoRepeatModeOff or AutoRepeatModeOn. */
        public int global_auto_repeat;
        /** Bit vector. Each bit set to 1 indicates that auto-repeat is enabled for the corresponding key. The vector is represented as 32 bytes. Byte N (from 0) contains the bits for keys 8N to 8N + 7 with the least significant bit in the byte representing key 8N. */
        public byte auto_repeats[] = new byte[32];

        @Override
        public String toString() {
            return "XKeyboardStateByReference{" +
                    "key_click_percent=" + key_click_percent +
                    ", bell_percent=" + bell_percent +
                    ", bell_pitch=" + bell_pitch +
                    ", bell_duration=" + bell_duration +
                    ", led_mask=" + led_mask +
                    ", global_auto_repeat=" + global_auto_repeat +
                    ", auto_repeats=" + auto_repeats +
                    '}';
        }
    }
}
